CN111250965B - Quick loading attachment of two knot hoses and nut - Google Patents

Abstract

The invention relates to a quick feeding device for double-buckle hoses and nuts, which comprises more than one guide mechanism, a large nut, double-buckle hoses, an automatic conveying mechanism and an automatic clamping mechanism, wherein the guide mechanism is arranged on the large nut; the guide mechanism comprises a guide tube and a guide tube fixing seat; the middle section of the guide tube is fixedly connected to the guide tube fixing seat; the outer diameter of the front section of the guide tube is smaller than the inner diameter of the large screw cap, the length of the tube is larger than the total length of the two large screw caps, and an inclined opening is formed in the port of the front section; the inner port of the rear section of the guide tube is provided with a flaring; the two large screw caps and the double-buckle hose are inserted into the quick feeding device on the guide pipe, so that the production speed and the assembly efficiency of the whole intelligent automatic assembly line are greatly improved, and the production cost is effectively saved.

Description

Quick loading attachment of two knot hoses and nut

Technical Field

The invention relates to the field of intelligent assembly of fluids in various industries; relate to a full intelligent automatic assembly production line, especially relate to a quick loading attachment of two knot hoses and nut.

Background

In various fluid products, hoses are widely used for connecting pipelines in various fluid industries.

At present, in the fluid industry, the assembly of shower hoses is basically completed in a manual assembly mode or a single shower hose is put into a production line for conveying, and the assembly is affected by the characteristics of softness, irregular elasticity and the like of double-buckle hoses and the limitation that the surfaces of nuts cannot be scratched, so that the basic requirements of full-automatic feeding and grabbing cannot be met, the capacity efficiency is low, the feeding requirement of the whole high-yield intelligent production line cannot be met synchronously, and the production progress of an enterprise is seriously affected.

Disclosure of Invention

In order to solve the defects, the invention provides the quick feeding device for the double-buckle hose and the screw cap, which has the advantages of solving the effect of quick manual feeding to full-automatic clamping, conveying and assembling on an intelligent production line, effectively solving and avoiding the series problems that the double-buckle hose is soft, has irregular elasticity, is difficult to place, is slow in speed and cannot be scratched when the screw cap is inserted, effectively ensuring the product assembling speed and the assembling quality of the whole high-productivity intelligent production line, realizing full-automatic assembling operation, high in production efficiency, good in assembling quality and the like.

The purpose of the invention is realized by the following technical scheme: a quick feeding device for double-buckle hoses and nuts comprises more than one guide mechanism, a large nut, double-buckle hoses, an automatic conveying mechanism and an automatic clamping mechanism; the device is characterized in that the guide mechanism comprises a guide tube and a guide tube fixing seat; the middle section of the guide tube is fixedly connected to the guide tube fixing seat, the outer diameter of the front section of the guide tube is smaller than the inner diameter of the large screw cap, the length of the guide tube is larger than the total length of the two large screw caps, and the port of the front section is provided with an inclined opening, so that the inner ports of the two large screw caps can be conveniently guided to be smoothly sleeved on the outer diameter of the front section of the guide tube; the inner diameter of the guide tube is larger than the outer diameter of the double-buckle hose, and an opening is formed in the inner end opening of the rear section of the guide tube, so that one end of the double-buckle hose can be conveniently guided to smoothly penetrate into the guide tube. The two large screw caps are manually taken up by one hand and sleeved into the guide tube through the inclined opening at the front end of the front section of the guide tube, and one end of the double-buckled hose is taken up by the other hand and inserted into the guide tube through the flaring opening arranged at the inner end opening of the rear section of the guide tube and penetrates out of the port at the front section of the guide tube.

In the above quick feeding device for the double-buckle hose and the nut, more than one guide tube fixing seat is fixedly connected to the automatic conveying mechanism, the guide tubes on the guide tube fixing seat and the automatic conveying mechanism are transversely distributed, and an automatic clamping mechanism axially opposite to the outer diameter of the front section of the guide tube is arranged at the side end of the automatic conveying mechanism; when a plurality of guide tubes are sleeved with two large screw caps and double-buckle hoses, the guide tubes are fixedly connected to the automatic conveying mechanism through guide tube fixing seats, the guide tubes are conveyed to corresponding positions of a plurality of automatic clamping mechanisms corresponding to the outer diameters of the front sections of the guide tubes, the automatic clamping mechanisms automatically clamp one ends of the plurality of double-buckle hoses, the two large screw caps on the automatic clamping mechanisms are clamped simultaneously, the plurality of double-buckle hoses are dragged to enter conveying working positions of intelligent assembling equipment to be placed stably, and the double-buckle hoses are conveyed to the assembling positions through the conveying device of the intelligent assembling equipment to be accurately assembled.

The working principle of the quick feeding device for the double-buckle hose and the screw cap is as follows: two large nuts are picked up by one hand by a manual (or mechanical hand) and sleeved into the guide tube through an inclined opening at the front end of the front section of the guide tube, one end of a double-buckle hose is picked up by the other hand simultaneously and inserted into the guide tube through an expanding opening arranged at an inner end opening at the rear section of the guide tube, and the double-buckle hose penetrates through the port at the front section of the guide tube through the inner wall of the guide tube, so that the feeding work of sleeving placement is finished easily; according to the requirement of station assembling quantity configured by the equipment, the intelligent assembling equipment circularly and orderly wears the large nuts and the double-buckle hose on a plurality of guide pipes, when the wearing and loading quantity meets the starting condition of the equipment, the intelligent assembling equipment starts the automatic conveying mechanism to drive the guide pipe fixing seat fixedly connected on the automatic conveying mechanism and drive the large nuts and the double-buckle hose on the plurality of guide pipes to enter the corresponding position of the automatic clamping mechanism axially aligned with the outer diameter of the front section of the guide pipe, the automatic clamping mechanism automatically clamps one end of the double-buckle hose, and simultaneously two large nuts with the guide pipe slide into the double-buckle hose, the double-buckle hose is dragged to enter the conveying working position of the intelligent assembling equipment to be stably placed, and the double-buckle hose is conveyed to each assembling position through the conveying device of the intelligent assembling equipment to be accurately assembled.

Compared with the prior assembly process, the quick feeding device for the double-buckle hose and the screw cap has the advantages of solving the effects of quick manual feeding to full-automatic clamping, conveying and assembling on an intelligent production line, effectively solving and avoiding the series problems that the double-buckle hose is soft, irregular in elasticity, difficult to place, slow in speed and incapable of following the assembly speed of intelligent assembly and high in productivity, and the surface of the inserted screw cap cannot be scratched, effectively ensuring the assembly speed and the assembly quality of products, realizing full-automatic assembly operation, high in production efficiency, good in assembly quality and the like.

Drawings

Fig. 1 is a schematic view of a guiding mechanism with a middle section of a guiding tube fixed on a guiding tube fixing seat.

FIG. 2 is a schematic view showing a state in which two large nuts are inserted into a guide tube through an inclined opening at the front end of the front section of the guide tube, and one end of a double-buckle hose is inserted into the guide tube through a flaring opening arranged at the rear end of the guide tube.

Fig. 3 is a schematic view of two large nuts sleeved into the guide tube, and one end of the double-buckle hose passing through the front port of the guide tube.

Fig. 4 is a schematic view showing a state in which the automatic clamping mechanism automatically clamps one end of the double-threaded hose while clamping two large nuts.

Fig. 5 is a schematic view of the state that the automatic clamping mechanism clamps the double-buckle hose and simultaneously clamps two large screw caps to pull the double-buckle hose into a conveying work position of the intelligent assembling equipment.

Fig. 6 is a schematic view of the overlooking state of the cycle that the automatic conveying mechanism drives a plurality of guide tubes which are sleeved with the large nuts and the double-buckled hoses to enter corresponding positions of the automatic clamping mechanism, and the automatic clamping mechanism simultaneously clamps the two large nuts and pulls the double-buckled hoses to enter a conveying working position of the intelligent assembling equipment.

Fig. 7 is a schematic sectional view of the guide tube.

In the figure, 1, a guide mechanism; 3. a large nut; 4. a double-buckle hose; 5. an automatic conveying mechanism; 6. an automatic gripping mechanism; 7. a device transport apparatus; 11. a guide mechanism; 12. a guide tube fixing seat; 101. the outer diameter of the front section; 102. a rear end port; 103. and (4) beveling.

Detailed Description

The following are specific embodiments of the present invention and are further described with reference to the drawings, but the present invention is not limited to these embodiments.

As shown in fig. 1-6, the quick feeding device for double-buckle hose and nut comprises more than one guide mechanism 1, a large nut 3, a double-buckle hose 4, an automatic conveying mechanism 5, an automatic clamping mechanism 6 and an equipment conveying device 7.

As shown in fig. 1-3 and 7, the one or more guide mechanisms 1 include a guide tube 11 and a guide tube holder 12; the middle section of the guide tube 11 is fixedly connected with a guide tube fixing seat 12; the outer diameter 101 of the front section of the guide tube 11 is smaller than the inner diameter of the large screw caps 3, the length of the outer diameter 101 of the front section is larger than the total length of the two large screw caps 3, and the front section port is provided with an inclined port 103, so that the inner ports of the two large screw caps 3 can be conveniently guided to be smoothly sleeved on the outer diameter 101 of the front section of the guide tube 11; the inner diameter of the guide tube 11 is larger than the outer diameter of the double-buckle hose 4, and an opening 102 is formed in the inner end opening of the rear section of the guide tube 11, so that one end of the double-buckle hose 4 can be conveniently guided to be smoothly inserted into the guide tube 11; when a worker holds two large nuts with one hand and easily sleeves the outer diameter 101 of the front section of the guide tube 11 through the front end bevel 103 of the front section of the guide tube 11, and simultaneously holds one end of the double-buckled hose 4 with the other hand and easily inserts the end into the guide tube 11 through the flaring 102 arranged at the inner end opening of the rear section of the guide tube 11, and penetrates out of the front end opening of the guide tube 11 through the inner wall of the guide tube 11, the insertion of the double-buckled hose 4 and the two large nuts 3 and the loading work of the machine table are easily solved at one time, the complex repeated loading work of inserting the double-buckled hose 4 and the two large nuts 3 first and then loading the soft elastic double-buckled hose 4 and the large nut 3 which is easily damaged on the machine table is effectively avoided, the surface damage problem of the two large nuts 3 is greatly protected, and the manual loading time of intelligent equipment is effectively shortened.

As shown in fig. 4-6, the at least one guide tube fixing seat 12 is fixedly connected to the automatic conveying mechanism 5, the guide tubes 11 on the guide tube fixing seat 12 and the automatic conveying mechanism 5 are transversely distributed, and an automatic clamping mechanism 6 axially opposite to the outer diameter 101 of the front section of the guide tube 11 is arranged at the side end of the automatic conveying mechanism 5; the more than one guide tubes 11 and the guide tube fixing seats 12 are configured in a proper amount according to the assembling quantity requirement of each station configured by the equipment, the feeding work of two large screw caps 3 and double-buckled hoses 4 is circularly and orderly carried out on the guide tubes 11, when the number of the sleeved feeding meets the starting condition of the equipment, the intelligent assembling equipment starts the automatic conveying mechanism 5 to drive the guide tube fixing seats 12 fixedly connected on the automatic conveying mechanism 5 and drive the large screw caps 3 and the double-buckled hoses 4 on the guide tubes 11 to enter the corresponding position of the automatic clamping mechanism 6 corresponding to the front section outer diameter 101 of the guide tubes 11, one end of the double-buckled hose 4 is automatically clamped by the automatic clamping mechanism 6, and simultaneously the two large screw caps 3 on the guide tubes 11 are held to slide into the double-buckled hose 4, the double-buckled hose 4 and the large screw caps 3 are dragged to enter the conveying work position of the intelligent assembling equipment to be stably placed, and the materials are conveyed to each assembly position through the intelligent assembly equipment conveying device 7 for accurate assembly.

As shown in fig. 1 to 6, the fast loading device for the double-buckle hose and the screw cap works according to the following principle: two large screw caps 3 are picked up by one hand by a manual (or mechanical hand) and sleeved on the outer diameter 101 of the front section of the guide tube 11 through the inclined opening 103 at the front end of the front section of the guide tube 11, one end of the double-buckle hose 4 is picked up by the other hand and inserted into the guide tube 11 through the flaring 102 arranged at the inner end opening of the rear section of the guide tube 11, and passes through the front end opening of the guide tube 11 through the inner wall of the guide tube 11, so that the feeding work of sleeving placement is easily completed; and according to the station assembling quantity requirement of each station of the equipment configuration, circularly and orderly forming a plurality of stationsTwo large screw caps 3 and double-buckled hoses 4 are sleeved on the guide tubes 11 in a penetrating manner, when the number of the penetrating materials of the guide tubes 11 meets the starting condition of the equipment, the intelligent assembling equipment starts the automatic conveying mechanism 5 to drive the guide tube fixing seat 12 fixedly connected on the automatic conveying mechanism 5 and convey the large screw caps 3 and the double-buckled hoses 4 on the guide tubes 11 to the corresponding positions of the automatic clamping mechanisms 6 which are axially opposite to the outer diameter 101 of the front sections of the guide tubes 11,one end of the double-buckle hose 4 is automatically clamped by the automatic clamping mechanism 6 and simultaneously is carried on the guide tube 11 The two big screw caps 3 slide into the double-buckle hose 4, and the other end of the double-buckle hose 4 is dragged into a conveyer of the intelligent assembling equipment The placing is stable on the working position,and the materials are conveyed to each assembly position through the intelligent assembly equipment conveying device 7 for accurate assembly.

Compared with the prior assembly process, the quick feeding device for the double-buckle hose and the screw cap has the advantages of solving the effects of quick manual feeding to full-automatic clamping, conveying and assembling on an intelligent production line, effectively solving and avoiding the series problems that the double-buckle hose is soft, irregular in elasticity, difficult to place, slow in speed and incapable of following the assembly speed of intelligent assembly and high in productivity, and the surface of the inserted screw cap cannot be scratched, effectively ensuring the assembly speed and the assembly quality of products, realizing full-automatic assembly operation, high in production efficiency, good in assembly quality and the like.

The specific embodiments described herein are merely illustrative of the spirit of the invention. Various modifications or additions may be made to the described embodiments or alternatives may be employed by those skilled in the art without departing from the spirit or ambit of the invention as defined in the appended claims.

Claims (2)

1. A quick feeding device for double-buckle hoses and nuts is characterized by comprising more than one guide mechanism (1), a large nut (3), double-buckle hoses (4) and an automatic clamping mechanism (6); the more than one guide mechanism (1) comprises a guide tube (11) and a guide tube fixing seat (12); the outer diameter (101) of the front section of the guide tube (11) is smaller than the inner diameter of the large screw caps (3), the tube length of the outer diameter (101) of the front section is larger than the total length of the two large screw caps (3), and an inclined opening (103) is formed in the port of the front section, so that the inner ports of the two large screw caps (3) can be conveniently guided to be smoothly sleeved on the outer diameter (101) of the front section of the guide tube (11); the inner diameter of the guide tube (11) is larger than the outer diameter of the double-buckle hose (4), and a flared opening (102) is formed in the inner diameter port of the rear section of the guide tube (11), so that one end of the double-buckle hose (4) can be conveniently guided to be smoothly inserted into the guide tube (11); the automatic clamping mechanism (6) is axially and correspondingly arranged on the outer diameter (101) of the front section of each guide pipe (11), one end of the double-buckle hose (4) is automatically clamped by the automatic clamping mechanism (6), two large nuts (3) on the guide pipes (11) are simultaneously driven to slide into the double-buckle hose (4), and the other end of the double-buckle hose (4) is dragged to enter a conveying working position of the intelligent assembling equipment to be stably placed.

2. The quick feeding device of a double-buckle hose and nut according to claim 1, characterized in that more than one guide tube fixing seat (12) is fixedly connected to the automatic conveying mechanism (5), and the guide tubes (11) on the guide tube fixing seat (12) and the automatic conveying mechanism (5) are transversely distributed; the middle section of the guide tube (11) is fixedly connected with a guide tube fixing seat (12); an automatic clamping mechanism (6) axially corresponding to the outer diameter (101) of the front section of the guide tube (11) is arranged at the side end of the automatic conveying mechanism (5), and the automatic clamping mechanism (6) performs reciprocating tube drawing motion at the side end of the automatic conveying mechanism (5).

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